Latest Articles for Particle Physics

Examining how phase transitions impact gravitational waves and primordial black holes.

Investigating cosmic strings may reveal secrets about the universe's early moments.

Analyzing how eta and eta-prime mesons behave during various decay processes.

Scientists propose innovative sensors to enhance dark matter research.

Researchers develop better Hamiltonians for simulating quantum chromodynamics interactions.

Research sets new limits on right-handed neutrinos using meson decay data.

Researchers use crystals to detect elusive axions and untangle dark matter mysteries.

A study on self-dual instantons and their impact on fundamental forces.

This research examines Hall currents in fermion systems on finite lattices.

This article examines how scattering amplitudes reveal insights into the chiral anomaly.

The Particle Dual Attention Transformer enhances jet tagging techniques in particle physics.

Examining how beta functions influence sigma models in theoretical physics.

ATLAS collaboration studies rare top quark events for signs of new physics.

This paper discusses how the Mirror Twin Higgs model relates to dark matter and baryogenesis.

Recent findings on gravitational waves raise questions about fundamental models.

Neutrinos provide crucial insights into the universe and fundamental forces.

Delve into hypernuclei and their role in particle physics and astrophysics.

Study reveals key findings on mesons, strong interactions, and particle behavior.

Research on charmed hadrons reveals insights into high-energy particle interactions.

New algorithms enhance the identification of symmetries in complex physical systems.

Research reveals clearer understanding of multi-parton interactions in high-energy collisions.

Study reveals ultralight bosons affect binary system orbits around black holes.

A fresh perspective on complex theories in physics through duality transformations.

Research reveals unexpected patterns in particle collisions involving polarized protons.

Examining the link between entanglement and symmetries in quantum systems.

A new approach enhances the efficiency of quantum entanglement distillation.

Exploring the subtle differences between two types of neutrinos and the implications of recent theories.

Researchers explore new methods to measure neutrino masses and their implications.

New findings suggest particles beyond current models may explain recent anomalies.

Scientists seek to reveal the mysteries surrounding sterile neutrinos through advanced experiments.

Scientists investigate tetraquark particles to reveal their unique properties and internal structures.

Exploring the properties and decay of mesons in the universe.

Semileptonic decays reveal insights into particle interactions and fundamental forces.

Recent anomalies in b quark decays may signal new physics beyond the Standard Model.

Exploring the role of bosons in enhancing quantum computing techniques.

New approaches using FPGAs improve data processing for particle collision events.

A look into superstring theory's challenges and potential for unification.

Research sheds light on muon neutrino behavior in argon for future experiments.

Exploring the nature and behavior of dark matter in our universe.

Researchers target axion-like particles as clues to dark matter.